Abstract

By examining the effect of dopamine (DA) D3 receptor stimulation on locomotor activity and extracellular levels of DA in striatum we show that inhibition of locomotor activity induced by DA D3 receptor-selective agonists is mediated by two interacting mechanisms: (1) directly via the stimulation of DA D3 receptors that inhibit locomotor activity, and (2) indirectly via a decrease in extracellular levels of DA. Thus, the moderately DA D3 receptor-selective agonist R-(+)-7-OH- DPAT (R-(+)-7-hydroxy-2-(N,N-di-n-propylamino)tetralin) decreased locomotor activity after administration of 10 nmol/kg and extracellular DA levels in accumbens and striatum after administration of 30 nmol/kg. A decrease in locomotor activity that coincided with a decrease in extracellular DA levels in striatum was observed after administration of 100 nmol/kg of the DA D3 receptor-selective agonist PD128907 ((+)-trans-3,4,4a,10b-tetrahydro-4-propyl-2H,5H-[1]benzopyrano[4,3b]-1,4-oxasin-9-ol). In combination with the partial, DA D3 receptor-selective agonist PD151328 (2-[4[3-(4-phenyl)-1-piperazinyl)propoxy]phenyl]-benzamidazole), a reversal of the attenuating effect of PD128907 on locomotor activity was observed, without an effect on extracellular levels of DA. In combination with a low − 10 nmol/kg - dose of haloperidol, a reversal of the inhibitory effect of PD128907 on locomotor activity was observed that coincided with an increase in extracellular levels of DA. In the presence of 0.5 mg/kg amphetamine, PD128907 decreased amphetamine-induced locomotor activity. This effect could be reversed by PD151328.